9600 modems
Date: Sat Nov 30 1991 23:37:00
From: Joe Siegler
To: All
Subj: 9600 info 1/7
Attr:
hs_modems -------------------------------
10/10/91
96MODM-A.TXT
PURPOSE: To translate Advertising and misinformation about 9600 bps
modems into everyday BBS talk. There is a lot of confusion
about 9600bps communications and I'll attempt to explain,
clarify and define some of the terms and claims you'll encounter
when purchasing a high speed modem.
DISCLAIMER: The information presented was accurate at the time this file
was written, but with the way the world moves, it might not be
true when you read this. I will not be responsible for damages
or losses incurred if you depend solely on this file for your
information. I encourage you to investigate any claims either I
or a manufacturer/dealer makes.
CORRECTIONS: If I made an error, do not modify this text. Add a file to the
ZIP with your comment/correction/opinion and re-ZIP the file.
=============================================================================
WHO IS THIS GUY?
~~~~~~~~~~~~~~~~
I am a SysOp of a BBS in Los Angeles, CA that runs multiple 9600+ bps lines.
I also compile and distribute the 96LIST (a list of BBS's that support 9600+
bps CONNECTs). I am not a modem guru and I learn more about modems daily. I
have used a number of different 9600 bps modems that include USR HST's, Hayes
V-series, v.32, v.32bis and Telebit Trailblazers [PEP]) both on my BBS and as
a user.
I monitor the USR, v.32 and Hayes conferences on Intelec, SmartNet and
U'NInet. During the gathering of information for 96LIST and attempting to
stay on top of what's new, I've seen some of the most commonly asked
questions people ask when shopping for high speed modems and will attempt to
incorporate those questions and answers into this file.
In this file, I will try to give you the good and bad points of each modem as
I see them. Whatever brand or type modem you buy is up to you. Research your
prices well and investigate, investigate, investigate! Learn to separate the
hype from the facts.
Ken Sukimoto
=============================================================================
WHICH MODEM SHOULD I GET?
~~~~~~~~~~~~~~~~~~~~~~~~~
Without getting too techy, the best way to decide which one to get is to make
a list of the BBS's you call and then:
1. Note what kind of modem they use (v.32, HST, Hayes, etc)
2. Take a look at your budget and see what you can afford.
3. Check your hardware and make sure it will handle 9600 bps.
4. Buy the modem that is the most compatible with your equipment, the
greatest number of BBS's you call and that fits in your budget.
5. If the budget will handle it and you've chosen a proprietary modem,
try and stretch the budget to get a dual standard model for cross brand
compatibility.
6. Live with your decision - but don't put down someone elses choice if
it was different than yours.
7. Enjoy! And encourage others to upgrade to 9600!
==========================================================================
STANDARDS
~~~~~~~~~
Much has been said of "Standards".
"Is it Hayes compatible? They're the 'Standard'"
Not necessarily true when we talk of 9600 (and greater).
Hayes established a Standard for the AT command set. Other modem
manufacturers adopted this standard for the commands their modems would
recognize. But if you look at your current modem specification sheet, you
will see a different set of standards for the method that your modem
communicates at 300 bps, 1200 bps and 2400 bps - no mention of Hayes.
The current talk is, "HST is the standard for 9600!" Untrue, it is the
most widely used method in the BBS community, but it is proprietary - not
available to other companies (more on this later). Much like IBM's MCA
bus, it might be good - but you have to buy IBM to get it (but even IBM
licenses MCA to other companies).
My personal opinion is that the CCITT v.32 and v.32bis are THE Standards -
maybe not the most widely used today, but in the forseeable future. This is
because the CCITT standards are a published guidelines available to all modem
manufacturers to implement. They may not be the fastest, but they are a
common method - promoting maximum connectivity.
* DeLuxe2 1.20 #1051s * Moderator of the FidoNet STERN-SHOW Conference
--- QM v1.00
* Origin: AOF II:The Next Dimension PCBoard (1:273/928.0)
Date: Sat Nov 30 1991 23:38:00
From: Joe Siegler
To: All
Subj: 9600 info 2/7
Attr:
hs_modems -------------------------------
BAUD and BPS
~~~~~~~~~~~~
First, let's get this clear - although everyone seems to use the terms "Baud"
and "Bps" interchangably, there is a difference. A baud is one cycle change
during the transmission of data over the modem. During that one cycle change,
a number of bits can be sent. The one instance where BAUD=BPS is when a
transfer is occuring at 300 Baud. 300 Baud is defined as 300 cycle changes per
second with one data bit being sent during each cycle change. Higher BPS rates
are achieved by sending multiple data bits at 300 Baud (cycle changes), 600
Baud and 2400 Baud. 9600 bps speeds are achieved by using 2400 Baud (cycle
changes) with 4 data bits per cycle change. Technically, a 2400 Baud modem is
most likely a 9600 bps modem and there is no such modem as a 9600 Baud modem.
I only bring this up to pick a nit and to let you know that I am aware there
is a difference. Also to give you a sense of being in on a secret and giving
you the chance to win a bet at the office.
What is MNP, v.32, v.42?
~~~~~~~~~~~~~~~~~~~~~~~~
You've probably seen those v.XX numbers and wondered what they all meant.
These standards are dictated by the CCITT, an international council composed
of national agencies and major manufacturers. The numbering can be confusing
as each standard is a separate one (except when it applies to a second or
third generation standard - designated with a "bis" or "tres" suffix). A
higher number does not necessarily mean better and may not even apply to the
same function as a lower number.
As a general rule of thumb, the v.22 series refers to CONNECT methods for
speeds of 1200 bps to 2400 bps. The v.32 series standards apply to 9600+ bps
CONNECT methods. Within each of these numbers series, you might see "bis"
suffixes. These designate the second generation of that number series and
means an enhancement to the basic standard.
V.32
~~~~
V.32 is an international 9600 bps standard for communicating at 9600 bps
that can be implemented by modem manufacturers without licensing fees. V.32
uses full duplex modulation (9600 bps in both directions at once). The full
duplex method is advantageous when data in equal amounts is being sent in
both directions simultaneously, such as in an interactive application or when
(and if) BiModem or another bidirectional protocol gains favor. V.32 also
incorporates fallback rates of 7200 bps and 4800 bps when line conditions
prevent a reliable 9600 bps CONNECT rate.
V.32bis
~~~~~~~
V.32bis is the second generation of v.32 and calls for a CONNECT rate of
14,400 bps with a fallback rate of 12,000 bps. In order to be v.32bis
compliant, the modem must also be v.32 compliant. v.32bis is also full duplex
by specification. There are currently several v.32 modems that are v.32bis
COMPATIBLE because they include the v.32bis fallback 12,000 bps rate. These
particular modems are not v.32bis COMPLIANT since they do not include the
14,400 bps rate.
V.42
~~~~
V.42 is an international CCITT standard for data compression. V.42
incorporates downward compatibility with Microcom (c) Network Protocol (aka
MNP) Levels 1 to 4 error correction. It also includes LAPM (Link Access
Procedure for Modems) which uses Cyclic Redundancy Checking (CRC) to ensure
data reliability, as does MNP level 4.
V.42bis
~~~~~~~
V.42bis is the second generation of v.42. Besides v.42, it also incorporates
intelligent data compression where it can detect if the file has already been
compressed and would not benefit from further compression. If the file would
benefit from compression, v.42bis could optimally deliver a 4:1 compression
factor. This is the often cited reason for claiming a 38,400 bps throughput
on an otherwise 9600 bps CONNECTion. There are 2400 bps modems that have
v.42bis as a feature and these manufacturers and dealers have sometimes
(erroneously) advertised their modems as 9600 bps modems (with "throughput"
added as an afterthought and in small print). If v.42bis detects the file
would not benefit from data compression, it will politely step aside and send
the file without wasting time trying to compress it anyway.
NOTE: Although v.32 and v.42 share the v.# numbering and are CCITT standards,
they are independent of each other. Having one does not mean you have
the other. Because a modem incorporates v.42 does not mean it has v.32
or vice versa. Unless assured otherwise, you should view each v.x as an
independent standard.
View the v.22 and v.32 categories as METHODS OF CONNECTION and the
v.42 category as an OPTIONAL FEATURE available to the methods of
connection.
It is entirely possible to have a v.22bis (2400 bps) modem [METHOD OF
CONNECTION] and v.42bis [OPTIONAL FEATURE] as well as a v.32bis modem
[METHOD OF CONNECTION] without v.42, MNP or v.42bis [OPTIONAL
FEATURE(S)].
* DeLuxe2 1.20 #1051s * Moderator of the FidoNet STERN-SHOW Conference
--- QM v1.00
* Origin: AOF II:The Next Dimension PCBoard (1:273/928.0)
Date: Sat Nov 30 1991 23:39:00
From: Joe Siegler
To: All
Subj: 9600 info 3/7
Attr:
hs_modems -------------------------------
MNP
~~~
MNP [Microcomm (c) Network Protocol] levels 1 to 4 are methods of error
correction where the two connected modems perform the verification of data
sent & received. There are software emulators of MNP, but I have not tested
them. Error correction is a requirement of streaming protocols such as
Ymodem-G where the protocol just sends a constant stream of data and lets the
modems do the error correction. This also requires a clean, noise free line
as streaming protocols will abort if line noise interferes too much.
MNP Level 5 is for data compression. As most BBS's archive their files or
files are already in a compressed format (demonstrate this by trying to ZIP a
GIF file), MNP5 can actually increase the overhead by attempting to compress
the file further. That is why you should ask if throughput claims are arrived
at by using data compression techniques - you will usually not have MNP5
enabled when you are transferring compressed files on most BBS's. When MNP
Level 5 is of use on an uncompressed file, it can achieve a 2:1 compression
factor; doubling the apparent throughput of the actual CONNECT rate.
THROUGHPUT & DTE/DCE RATES
~~~~~~~~~~~~~~~~~~~~~~~~~~
During your modem shopping and later when viewing BBS ads, you'll see figures
of 19,200bps and 38,400bps tossed around. As mentioned above, special data
compression methods enable higher transfer rates on qualified files. In order
for this data compression phase to work, the speed your computer (Data
Terminal Equipment - DTE) and your modem (Data Communications Equipment -
DCE) must be higher than the actual link rate between the two connected
modems. The data moves from the sending computer at this rate and if it is
able to be compressed, either MNP 5 or v.42bis will do so and the data will
be sent over the phone lines to the receiving modem at the link rate - NOT
the DTE/DCE rate. The receiving modem will then reverse the process and
uncompress the data and send the received data to the receiving DTE at the
higher DTE/DCE rate at that end. This perceived THROUGHPUT is achieved at the
link rate - the higher DTE/DCE rate is required at both ends of the
connection, but is NOT the rate the data is travelling between the two modems.
It is entirely possible to have a DTE/DCE rate of 38,400bps on both ends and
if the modems are 2400 bps with no data compression capabilities, there is NO
gain achieved over a 2400 bps modem with a 2400bps DTE/DCE rate. Also, a
9600bps modem with a DTE/DCE rate of 38,400 is not faster than a 14,400bps
modem with a DTE/DCE rate of 19,200bps. There are entirely too many sysops
who use this ploy either through ignorance, making an attempt to impress
the unknowing with big numbers or attempting to hide a lower link rate modem
behind the facade of a high DTE/DCE rate normally associated with a higher
speed modem.
When you call a BBS that is using a modem that has MNP or v.42, you can be
reasonably sure the DTE/DCE rate is at 19,200 or 38,400bps unless you are
told otherwise. As stated previously, most BBS files are not good candidates
for the compression that can take advantage of the high DTE/DCE rates.
Furthermore, not all serial ports or software applications are capable of
supporting the 38,400 bps DTE/DCE rate. The loss of speed between 19,200 and
38,400bps DTE/DCE rate is virtually nil and should not be a cause for major
concern.
Bottom line, the DTE/DCE rates and throughput figures should be noted, but in
most all case, is insignificant since it might not even apply in everyday BBS
usage.
The items that SHOULD be of concern are the method of CONNECTION and the link
SPEED of that connection.
PROPRIETARY STANDARDS
~~~~~~~~~~~~~~~~~~~~~
My own personal viewpoint towards proprietary standards is that since they
_ARE_ proprietary, the support and expandiblity of the system is dependent on
one company and that this is a restriction and disadvantage, regardless of
any performance advantage the proprietary method offers. My one exception to
this opinion is if the proprietary modem also supports the public v.32 or
v.32bis method in addition to the proprietary mode.
COMPUCOM'S CSP
~~~~~~~~~~~~~~
CompuCom Corporation's Champ modem is a relatively recent entry in the
9600bps field. This modem uses a half duplex mode of communicating (as do all
the proprietary methods). It's main advantage is very aggressive pricing in
an effort to gain a foothold in an already overcrowded proprietary method
market. Introduced in 1990, not many of the Champ models were sold, even with
the low price. At this writing, the Champ is enjoying some popularity because
of even lower pricing and the impending release of dual standard models that
will support the v.32 or v.32bis method and the CSP method. The Storm model
(CSP and v.32) and the Challenger (v.32bis and CSP) seem to be popular modems
based on preliminary advance orders.
If price is the major concern and compatibility is assured by using the modem
in a closed environment (where the method is prescribed by common agreement
or the purchaser controls the modems used on all connections), the CompuCom
Champ might be the modem of choice.
* DeLuxe2 1.20 #1051s * Moderator of the FidoNet STERN-SHOW Conference
--- QM v1.00
* Origin: AOF II:The Next Dimension PCBoard (1:273/928.0)
Date: Sat Nov 30 1991 23:39:00
From: Joe Siegler
To: All
Subj: 9600 info 4/7
Attr:
hs_modems -------------------------------
HAYES V-SERIES
~~~~~~~~~~~~~~
Hayes Corporation's V-series was one of the early entries in the PC 9600bps
modem market. Along with USR's HST, the V-series was once under consideration
as a candidate for the standard. However, the CCITT dropped both methods from
consideration since they were half duplex - full duplex was and is an
important feature for consideration as an CCITT standard.
In the 9600 bps area, Hayes is comparitively slow in introducing new features
on their modems (as of today, there is no Hayes v.32bis model modem),
however, they are relatively bug free once they start shipping the modems
(based on past experiences).
The V-series Hayes should not be confused with the CCITT v.32 modems. The
V-series is a proprietary method of connection. Hayes does have an Ultra
series of 9600 bps modem. This model supports both the CCITT v.32 method and
the proprietary Hayes V-series. As of this writing, Hayes has announced the
Ultra 14,400 model which includes the Hayes V-series mode and the CCITT
v.32bis mode. They have also introduced a low cost v.32 only modem to compete
with other generic CCITT v.32 modems. Neither were shipping as of the date of
this writing.
TELEBIT'S PEP
~~~~~~~~~~~~~
Telebit's strongest position is in the Unix environment. The PEP technology
lends itself very well to the types of files transferred over networks using
this Operating System.
The relative scarcity of PEP sites makes this method a poor choice for all
around BBS usage, although the Telebit 2500 is both PEP and CCITT v.32
compliant and might be a candidate if the BBS's or locations you call are
Unix based.
US ROBOTICS HST
~~~~~~~~~~~~~~~
US Robotics was one of the first two companies to offer a proprietary method
of 9600 bps connectivity aimed at the PC market place. Through shrewd
marketting (offering BBS SysOps low cost modems), the current majority of
9600+ bps BBS's are using some type of USR HST method modem.
HST means "High Speed Technology" and is a half duplex method of
communications. Half duplex uses one high speed channel and a much slower
'back channel' for the ACK/NAK signals from the receiver. The high speed
channel switches back and forth, depending on which end has the higher volume
of data to be sent. This half duplex mode is often referred to as
"ping-ponging". Recent models attain higher throughput than 9600 through
optimization of this proprietary method. CONNECT rates of 14,400 bps are
now possible using HST.
US Robotics was the first manufacturer to introduce a modem that supported
both their proprietary technology and the CCITT v.32 9600 bps method, in one
unit. In late 1990, USR introduced their 14,400 bps v.32bis/14,400 bps HST
Dual Standard model. Just recently, USR also introduced a lower priced v.32
9600 model modem as part of their 'Sportster' consumer line. Their other
high end models are known as the 'Courier' models. Although other
manufacturers have introduced or announced 'dual mode' (proprietary AND a
CCITT mode modem) modems, the term "Dual Standard" is a USR copyright.
* DeLuxe2 1.20 #1051s * Moderator of the FidoNet STERN-SHOW Conference
--- QM v1.00
* Origin: AOF II:The Next Dimension PCBoard (1:273/928.0)
Date: Sat Nov 30 1991 23:40:00
From: Joe Siegler
To: All
Subj: 9600 info 5/7
Attr:
hs_modems -------------------------------
THINGS TO LOOK FOR:
INTERNAL vs EXTERNAL
~~~~~~~~~~~~~~~~~~~~
Each type has advantages and disadvantages. If desktop space and electrical
outlets are at a premium and you are using an IBM compatible PC, an internal
modem might be your best bet. Internal modems also have the advantage of
having the UART the factory recommends on the modem itself. An internal modem
does require a slot on the motherboard (or expansion buss) and draws its
power from the PC power supply. If the number of slots available are in short
supply or if adding another card creates an air circulation problem, this
might make an external modem a better choice. Internal modems usually have a
small speaker for monitoring call progress; depending on the modem and the
location of the modem in the PC, the sound can often be inadequate. Internal
modems reside inside the case and do not offer any signal light capabilities
to help in diagnostics - however, there are some communications programs and
TSR utilities that simulate these lights on the PC screen. Internal modems
are generally configured for which COM port to use by jumpering. No serial
cards are required to install an internal modem. By the same token, if a
serial card is already installed, the corresponding COM port and interrupt on
the serial card must be disabled. One additional problem that might be
encountered is if the communication program locks up. Since the internal
modem draws power from the PC, resetting the modem might involve cold
rebooting the computer to terminate the lock up.
External modems do require desk space and an electrical outlet for the
transformer to provide power. They also require a serial I/O card with the
proper support chips, UART and cable to interface the modem to the PC.
Depending on the case design, air circulation for an external modem could be
better than an internal, the speaker is of usually higher quality and size,
and signal lights are usually incorporated into the case to assist in
diagnosing communication sessions. Since external modems use the common
RS-232 connection, it can be used on other than IBM PC compatible computers.
CONFIGURABILITY:
~~~~~~~~~~~~~~~
In 9600 bps modems, there is a lot more configuring to do than 2400/1200
bps modems. A nice feature is a DIP switch (or other hardware) method of
configuring the modem. Saves inputting a 5 line INITialization string. At
the very least, it should have NRAM (Non-volatile Random Access Memory)
that will store your configuration. Several modems have multiple registers
in NRAM that allows storing multiple initialization strings for different
situations. You should also check on internal modems what COM ports are
configurable. Most internal modems can be configured for COM 1 to COM 4 with
the standard interrupts assigned to those addresses. Some modems might be
restricted to COM1 and 2, while better modems might allow full freedom in
assigning COM ports and interrupts.
UARTS
~~~~~
Your serial port (on internals, it is built on the modem) has a UART
(Universal Asynchronous Receive/Transmit) chip to buffer and control the
Input/Output (I/O). The PC XT usually has an 8450 UART which will handle up
to 9600 bps. The equivalent chip for the AT is the 16450. When you exceed
9600 bps or will be multitasking, you should consider upgrading the UART to
the NS16550AFN UART. This advanced chip is usually available for about $15
and offers a 16 byte buffer to store data that arrives from the sending modem
as incoming data or from the CPU for transmittal. This buffer could be just
enough to solve most common errors associated with high speed communications
and multitasking. It might not be necessary in every instance, but is a
relatively small cost item in view of solving possible future conflicts
and/or problems. When shopping for this chip, the significant part number is
the "AFN" portion. The "AN" or "A" was a buggy chip; the "AFN" is the current
bug free version with the F being significant. The "N" suffix is just an
indicator of the chip packaging. The Western Digital 16C550, although similar
in appearance and supposed purpose, has proven to be inadequate. Mixed reports
have been heard about the Goldstar 16550 and the 16550 VLSI chip used on some
motherboards where the serial port is integrated on the motherboard itself.
You might want ask, when purchasing an internal modem, whether the UART
capabilities of that modem are enabled with a VLSI (Very Large Scale
Integrated circuit) chip that emulates the 16450 or a 16550AFN. Some internal
modems use the actual NS16550AFN chip itself. This might be an important
consideration if you plan on using the modem in a multitasking environment
where the 16550AFN becomes crucial. Swapping these components on an internal
modem is difficult at best; impossible in other cases.
COMPATIBLE and COMPLIANT
~~~~~~~~~~~~~~~~~~~~~~~~
There is a difference - between these two words, COMPLIANT is the more
desirable. Compatible means it will recognize and in many instances, function
like the method or function it is compatible with. However, it does not
guarantee that it achieves this compatibility by the same method the standard
that dictates the method calls for. If a program or feature is dependant on
compliance with a standard, it is possible that a compatible modem will work
with that application or feature. Some other program or feature might rely on
complete compliance with the standard and not recognize the method the
compatible modem uses to achieve compatibility. If a feature or method you
use is a requirement, it is best to demand the modem be not only compatible,
but compliant in the method it uses in achieving that feature.
* DeLuxe2 1.20 #1051s * Moderator of the FidoNet STERN-SHOW Conference
--- QM v1.00
* Origin: AOF II:The Next Dimension PCBoard (1:273/928.0)
Date: Sat Nov 30 1991 23:40:00
From: Joe Siegler
To: All
Subj: 9600 info 6/7
Attr:
hs_modems -------------------------------
Synopsis of Modems and Compatibility:
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
These modems will usually be downwardly compatible with 2400 bps modems. Some
modems will not negotiate a 300 bps CONNECT. Most, at a minimum, will be
compatible with 1200 and 2400 bps standards. There have been reports of some
modems having problems with some 2400 bps modems - this is usually the fault
of the 2400 bps modem not being fully COMPLIANT with the standards. Because of
the stricter guidelines imposed by 9600, the likelihood of a 9600 modem
manufacturer cutting corners is less likely than the 2400 manufacturer. Most
9600's have an auto-fallback mode that will detect the highest negotiable bps
rate, either through hardware or software configuration. As stated
previously, if the modem is v.42 capable, it will fall back to MNP if
the other modem is not v.42 capable, but is MNP capable. Modems supporting
MNP will connect with data compression/error correction with other MNP
modems at the highest bps rate negotiable.
Listed in alphabetical order by brand name -
CompuCom Champ
The Champ uses a proprietary CompuCom Speed Protocol (CSP) to communicate
at 9600 bps.
- CONNECTs to other CSP modems at 9600 bps.
CompuCom Storm
The Storm uses a proprietary CompuCom Speed Protocol (CSP) to communicate
at 9600 bps and the CCITT v.32 method for communicating at 9600 bps.
- CONNECTs to other CSP modems at 9600 bps.
CONNECTs to v.32 modems at 9600 bps.
CONNECTs to v.32bis modems at 9600 bps.
CONNECTs to v.32 dual mode modems at 9600 bps.
CONNECTs to v.32bis dual mode modems at 9600 bps.
CompuCom Challenger
The Challenger uses a proprietary CompuCom Speed Protocol (CSP) to
communicate at 9600 bps and the CCITT v.32bis method for communicating at
14,400 bps.
- CONNECTs to other CSP modems at 9600 bps.
CONNECTs to v.32 modems at 9600 bps.
CONNECTs to v.32bis modems at 14,400 bps.
CONNECTs to v.32 dual mode modems at 9600 bps.
CONNECTs to v.32bis dual mode modems at 14,400 bps.
Generic V.32:
Uses the CCITT method of communicating at 9600 bps.
- CONNECTs to v.32 modems at 9600 bps.
CONNECTs to v.32bis modems at 9600 bps.
CONNECTs to v.32 dual mode modems at 9600 bps.
CONNECTs to v.32bis dual mode modems at 9600 bps.
Generic V.32bis:
Uses the CCITT method of communicating at 14,400 bps.
- CONNECTs to v.32 modems at 9600 bps.
CONNECTs to v.32bis modems at 14,400 bps.
CONNECTs to v.32 dual mode modems at 9600 bps.
CONNECTs to v.32bis dual mode modems at 14,400 bps.
Hayes V-Series:
The Hayes V-Series uses a proprietary method of communicating at 9600 bps.
- CONNECTs to other Hayes V-Series modems at 9600 bps.
CONNECTs to other Hayes ULTRA modems at 9600 bps.
Hayes ULTRA:
The Hayes V-Series uses a proprietary method of communicating at 9600 bps
and CCITT v.32 for communicating at 9600 bps.
- CONNECTs to Hayes V-series modems at 9600 bps.
CONNECTs to v.32 modems at 9600 bps
CONNECTs to v.32 dual mode modems at 9600 bps.
CONNECTs to v.32bis dual mode modems at 9600 bps.
Hayes ULTRA 14,400:
The Hayes V-Series uses a proprietary method of communicating at 9600 bps
and CCITT v.32bis for communicating at 14,400 bps.
- CONNECTs to Hayes V-series modems at 9600 bps.
CONNECTs to v.32 modems at 9600 bps
CONNECTs to v.32bis modems at 14,400 bps.
CONNECTs to v.32 dual mode modems at 9600 bps.
CONNECTs to v.32bis dual mode modems at 14,400 bps.
Telebit Trailblazer:
Uses proprietary PEP method of communicating at 9600 bps.
- CONNECTs to other Telebit Trailblazers at 9600.
* DeLuxe2 1.20 #1051s * Moderator of the FidoNet STERN-SHOW Conference
--- QM v1.00
* Origin: AOF II:The Next Dimension PCBoard (1:273/928.0)
Date: Sat Nov 30 1991 23:41:00
From: Joe Siegler
To: All
Subj: 9600 info 7/7
Attr:
hs_modems -------------------------------
Telebit T-2500:
Uses proprietary PEP method of communicating at 9600 bps and CCITT v.32 for
9600 bps.
- CONNECTs to Telebit Trailblazers at 9600.
CONNECTs to v.32 modems at 9600 bps.
CONNECTs to v.32bis modems at 9,600 bps.
CONNECTs to v.32 dual mode modems at 9600 bps.
CONNECTs to v.32bis dual mode modems at 9600 bps.
USR Courier HST 9600:
Uses the USR proprietary HST method of communicating at 9600 bps.
- CONNECTs to HST 9600 bps modems at 9600 bps.
CONNECTs to HST 14.4 bps modems at 9,600 bps
CONNECTs to HST v.32/DS's at 9600 bps
CONNECTs to HST v.32bis/DS's at 9600 bps
USR Courier HST 14.4:
Uses the USR proprietary HST method of communicating at 14,400 bps.
- CONNECTs to HST 9600 bps modems at 9600 bps
CONNECTs to HST 14.4 bps modems at 14,400 bps
CONNECTs to HST DS modems at 14,400 bps
USR Courier v.32/HST DS:
The v.32/Dual Standard uses the proprietary HST method for communicating at
14,400 bps and the CCITT V.32 method of communicating at 9600 bps.
- CONNECTs to 9600 HST's at 9600 bps.
CONNECTs to v.32 modems at 9600 bps.
CONNECTs to v.32bis modems at 9,600 bps.
CONNECTs to 14.4 HST's at 14,400 bps
CONNECTs to v.32 dual mode modems at 9600 bps.
CONNECTs to v.32bis dual mode modems at 9600 bps.
CONNECTs to USR v.32/Dual Standards at 9600 bps with v.32
CONNECTs to USR v.32/Dual Standards at 14,400 bps with HST
CONNECTs to USR v.32bis/Dual Standards at 9600 bps with v.32bis
CONNECTs to USR v.32bis/Dual Standards at 14,400 bps with HST
USR Courier v.32bis/HST DS:
This Dual Standard incorporates both the proprietary HST method and the
CCITT V.32bis method of communicating at 14,400 bps.
- CONNECTs to 9600 HST's at 9600 bps.
CONNECTs to v.32 modems at 9600 bps.
CONNECTs to v.32bis modems at 14,400 bps.
CONNECTs to 14.4 HST's at 14,400 bps
CONNECTs to v.32 dual mode modems at 9600 bps.
CONNECTs to v.32bis dual mode modems at 14,400 bps.
CONNECTs to USR v.32/Dual Standards at 9600 bps with v.32
CONNECTs to USR v.32/Dual Standards at 14,400 bps with HST
CONNECTs to USR v.32bis/Dual Standards at 14,400 bps with v.32bis
CONNECTs to USR v.32bis/Dual Standards at 14,400 bps with HST
=============================================================================
Whatever choice you make, I hope this file was of some help in deciding
which modem you buy.
After purchasing your modem, if you need a list of 9600+ bps BBS's to call,
the latest copy of 96LIST is downloadable from:
The DownTown BBS
(213) 484-0260
[3/12/2400 Public Access Line]
4 nodes - MajorBBS v5.30LQ-4
Los Angeles, CA
Pursuitable thru CALAN
3/12/24/96/14.4k bps
v.32/v.32bis/14.4k HST Supported on Subscriber Lines
1,600 Meg on Line - Adult Graphics
<*** End of File ***>
* DeLuxe2 1.20 #1051s * Moderator of the FidoNet STERN-SHOW Conference
--- QM v1.00
* Origin: AOF II:The Next Dimension PCBoard (1:273/928.0)
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